U.S. Boiler Company Baseray Installation, Operating And Service Instructions

Brand: U.S. Boiler Company

Model: Baseray

Type: Installation, Operating And Service Instructions

103829-03 - 12/22

Base-Ray

Installation Instructions for

®®

• Cast Iron

• Baseboard Radiation

Manual Contents Page

1. Ratings ....................... 2

2. Assembly Chart ................4

3. System Types .................5

4. Series Loop Systems ...........6

5. Series Loop Design. . . . . . . . . . . . . 7

6. Installation Details .............8

7. Installation Instructions .........9

8. Assembly Instructions ......... 10

9. Special Applications ...........14

10. Service Parts ................. 15

2103829-03 - 12/22

BASE-RAY Installation Instructions

Ratings are determined from tests made in accordance

with the I=B=R Testing and Rating Code for Baseboard

Type of Radiation, including an allowance of 15% for

heating effect permitted by the Code.

Ratings based on active length. Active length same as

total length.

**The Hot Water Ratings at 500 lb. Flow Rate are based on a standard water flow

rate of 500 lbs. per hour (one gallon per minute) through the Base-Ray. These ratings

should be used for all installations except as noted under 2,000 Lb. Flow Rate.

*Add ½ in. to length for each bushing. Add 5 in. to length for each valve

enclosure.

***Based on ¾ in. pipe connections.

For Ratings at the following temperatures, multiply the 150° rating by the multiplier of the desired temperature.

No. 9A Base-Ray® Ratings – Steam and Hot Water (500 LBS/HR Flow Rate **)

Temperature – Multiplier

150° - 1.0

140° - .82

130° - .68

120° - .54

110° - .42

100° - .32

90° - .22

Length in

Lineal Feet*

Steam

Rating

Square

Feet

Steam

Ratings

BTU Per

Hr. At

215°F

HOT WATER RATINGS IN BTU PER HOUR AT

500 LBS./HR. (ONE GPM) FLOW RATE**

AT AVERAGE WATER TEMPERATURE OF

Pressure Drop

in Inches of

Water***

230°F 220°F 210°F 200°F 190°F 180°F 170°F 150°F

Per Lin. Ft. 3.40 820 890 830 770 710 650 590 520 390

1.5 5.1 1,230 1,340 1,250 1,160 1,070 980 890 780 585 .10

2.0 6.8 1,640 1,780 1,660 1,540 1,420 1,300 1,180 1,040 780 .10

2.5 8.5 2,050 2,230 2,080 1,930 1,780 1,630 1,480 1,300 975 .11

3.0 10.2 2,460 2,670 2,490 2,310 2,130 1,950 1,770 1,560 1,170 .12

3.5 11.9 2,870 3,120 2,910 2,700 2,490 2,280 2,070 1,820 1,365 .13

4.0 13.6 3,280 3,560 3,320 3,080 2,840 2,600 2,360 2,080 1,560 .14

4.5 15.3 3,690 4,010 3,740 3,470 3,200 2,930 2,660 2,340 1,755 .14

5.0 17.0 4,100 4,450 4,150 3,850 3,550 3,250 2,950 2,600 1,950 .15

5.5 18.7 4,510 4,900 4,570 4,240 3,910 3,580 3,250 2,860 2,145 .16

6.0 20.4 4,920 5,340 4,980 4,620 4,260 3,900 3,540 3,120 2,340 .17

6.5 22.1 5,330 5,790 5,400 5,010 4,620 4,230 3,840 3,380 2,535 .18

7.0 23.8 5,740 6,230 5,810 5,390 4,970 4,550 4,130 3,640 2,730 .18

7.5 25.5 6,150 6,680 6,230 5,780 5,330 4,880 4,430 3,900 2,925 .19

8.0 27.2 6,560 7,120 6,640 6,160 5,680 5,200 4,720 4,160 3,120 .20

8.5 28.9 6,970 7,570 7,060 6,550 6,040 5,530 5,020 4,420 3,315 .21

9.0 30.6 7,380 8,010 7,470 6,930 6,390 5,850 5,310 4,680 3,510 .22

9.5 32.3 7,790 8,460 7,890 7,320 6,750 6,180 5,610 4,940 3,705 .22

10.0 34.0 8,200 8,900 8,300 7,700 7,100 6,500 5,900 5,200 3,900 .23

10.5 9,350 8,715 8,090 7,460 6,830 6,200 5,460 4,095 .24

11.0 9,790 9,130 8,470 7,810 7,150 6,490 5,720 4,290 .25

11.5 10,240 9,550 8,860 8,170 7,480 6,790 5,980 4,485 .26

12.0 10,680 9,960 9,240 8,520 7,800 7,080 6,240 4,680 .26

12.5 11,130 10,380 9,630 8,880 8,130 7,380 6,500 4,785 .27

13.0 11,570 10,790 10,010 9,230 8,450 7,670 6,760 5,070 .28

13.5 12,020 11,210 10,400 9,590 8,780 7,970 7,020 5,265 .29

14.0 12,460 11,620 10,780 9,940 9,100 8,260 7,280 5,460 .30

14.5 12,910 12,040 11,170 10,300 9,430 8,550 7,540 5,655 .30

15.0 13,350 12,450 11,550 10,650 9,750 8,850 7,800 5,850 .31

15.5 13,800 12,870 11,940 11,010 10,080 9,150 8,060 6,045 .32

16.0 14,240 13,280 12,320 11,360 10,400 9,440 8,320 6,240 .33

16.5 14,690 13,700 12,710 11,720 10,730 9,470 8,580 6,435 .34

17.0 15,130 14,110 13,090 12,070 11,050 10,030 8,840 6,630 .34

17.5 15,580 14,530 13,480 12,430 11,380 10,330 9,100 6,825 .35

18.0 16,020 14,940 13,860 12,780 11,700 10,620 9,360 7,020 .36

18.5 16,470 15,360 14,250 13,140 12,030 10,920 9,620 7,215 .37

19.0 16,910 15,770 14,630 13,490 12,350 11,210 9,880 7,410 .38

19.5 17,360 16,190 15,020 13,850 12,680 11,510 10,140 7,605 .38

20.0 17,800 16,600 15,400 14,200 13,000 11,800 10,400 7,800 .39

20.5 18,250 17,020 15,790 14,560 13,330 12,100 10,660 7,995 .40

21.0 18,690 17,430 16,170 14,910 13,650 12,390 10,920 8,190 .41

21.5 19,140 17,850 16,560 15,270 13,980 12,690 11,180 8,385 .42

22.0 19,580 18,260 16,940 15,620 14,300 12,980 11,440 8,580 .42

1 Ratings

3103829-03 - 12/22

BASE-RAY Installation Instructions BASE-RAY Installation Instructions

For Ratings at the following temperatures, multiply the 150° rating by the multiplier of the desired temperature.

No. 9A Base-Ray® Ratings – Steam and Hot Water (2,000 LBS/HR Flow Rate **)

Ratings are determined from tests made in accordance with

the I=B=R Testing and Rating Code for Baseboard Type of

Radiation, including an allowance of 15% for heating effect

permitted by the Code.

Ratings based on active length. Active length same as total

length.

9A Base-Ray Water Content - 2.5 lbs. or .3 gal. per linear ft.

**The Hot Water Ratings at 2,000 lb. Flow Rate are limited to installations where

the water flow rate through the Base-Ray is greater than 2,000 lbs. per hour (four

gallons per minute). Where the water flow rate through the Base-Ray is not know, the

rating at the standard flow rate of 500 lbs. per hour mst be used.

*Add ½ in. to length for each bushing. Add 5 in. to length for each valve

enclosure.

***Based on ¾ in. pipe connections.

Temperature – Multiplier

150° - 1.0

140° - .82

130° - .68

120° - .54

110° - .42

100° - .32

90° - .22

Length in

Lineal Feet*

Steam

Rating

Square

Feet

Steam

Ratings

BTU Per

Hr. At

215°F

HOT WATER RATINGS IN BTU PER HOUR AT

500 LBS./HR. (ONE GPM) FLOW RATE**

AT AVERAGE WATER TEMPERATURE OF

Pressure Drop

in Inches of

Water***

230°F 220°F 210°F 200°F 190°F 180°F 170°F 150°F

Per Lin. Ft. 3.40 820 940 880 810 750 690 620 550 410

1.5 5.1 1,230 1,410 1,320 1,220 1,130 1,040 930 830 615 1.29

2.0 6.8 1,640 1,880 1,760 1,620 1,500 1,380 1,240 1,100 820 1.39

2.5 8.5 2,050 2,350 2,200 2,030 1,880 1,730 1,550 1,380 1,025 1.50

3.0 10.2 2,460 2,820 2,640 2,430 2,250 2,070 1,860 1,650 1,230 1.61

3.5 11.9 2,870 3,290 3,080 2,840 2,630 2,420 2,170 1,930 1,435 1.71

4.0 13.6 3,280 3,760 3,520 3,240 3,000 2,760 2,480 2,200 1,640 1.82

4.5 15.3 3,690 4,230 3,960 3,650 3,380 3,110 2,790 2,480 1,845 1.93

5.0 17.0 4,100 4,700 4,400 4,050 3,750 3,450 3,100 2,750 2,050 2.03

5.5 18.7 4,510 5,170 4,840 4,460 4,130 3,800 3,410 3,030 2,255 2.14

6.0 20.4 4,920 5,640 5,280 4,860 4,500 4,140 3,720 3,300 2,460 2.25

6.5 22.1 5,330 6,110 5,720 5,270 4,880 4,490 4,030 3,580 2,665 2.35

7.0 23.8 5,740 6,580 6,160 5,670 5,250 4,830 4,340 3,850 2,870 2.46

7.5 25.5 6,150 7,050 6,600 6,080 5,630 5,180 4,650 4,130 3,075 2.57

8.0 27.2 6,560 7,520 7,040 6,480 6,000 5,520 4,960 4,400 3,280 2.68

8.5 28.9 6,970 7,990 7,480 6,890 6,380 5,870 5,270 4,680 3,485 2.78

9.0 30.6 7,380 8,460 7,920 7,290 6,750 6,210 5,580 4,950 3,690 2.89

9.5 32.3 7,790 8,930 8,360 7,700 7,130 6,560 5,890 5,230 3,895 3.00

10.0 34.0 8,200 9,400 8,800 8,100 7,500 6,900 6,200 5,500 4,100 3.10

10.5 9,870 9,240 8,510 7,880 7,250 6,510 5,780 4,305 3.21

11.0 10,340 9,680 8,910 8,250 7,590 6,820 6,050 4,510 3.32

11.5 10,810 10,120 9,320 8,630 7,940 7,130 6,330 4,715 3.42

12.0 11,280 10,560 9,720 9,000 8,280 7,440 6,600 4,920 3.53

12.5 11,750 11,000 10,130 9,380 8,630 7,750 6,880 5,125 3.64

13.0 12,220 11,440 15,030 9,750 8,970 8,060 7,150 5,330 3.74

13.5 12,690 11,880 10,940 10,130 9,320 8,370 7,430 5,535 3.85

14.0 13,160 12,320 11,340 10,500 9,660 8,680 7,700 5,740 3.96

14.5 13,630 12,760 11,750 10,880 10,010 8,990 7,960 5,945 4.06

15.0 14,100 13,200 12,150 11,250 10,350 9,300 8,250 6,150 4.17

15.5 14,570 13,640 12,560 11,630 10,700 9,610 8,530 6,355 4.28

16.0 15,040 14,080 12,960 12,000 11,040 9,920 8,800 6,560 4.38

16.5 15,510 14,520 13,370 12,380 11,390 10,230 9,080 6,765 4.49

17.0 15,980 14,960 13,770 12,750 11,730 10,540 9,350 6,970 4.60

17.5 16,450 15,400 14,180 13,130 12,080 10,850 9,630 7,175 4.70

18.0 16,920 15,840 14,580 13,500 12,420 11,160 9,900 7,380 4.81

18.5 17,390 16,280 14,990 13,880 12,770 11,470 10,180 7,585 4.92

19.0 17,860 16,720 15,390 14,250 13,110 11,780 10,450 7,790 5.03

19.5 18,330 17,160 15,800 14,630 13,460 12,090 10,730 7,995 5.13

20.0 18,800 17,600 16,200 15,000 13,800 12,400 11,000 8,200 5.24

20.5 19,270 18,040 16,610 15,380 14,150 12,710 11,280 8,405 5.35

21.0 19,740 18,480 17,010 15,750 14,490 13,020 11,550 8,610 5.45

21.5 20,210 18,920 17,420 16,130 14,840 13,330 11,830 8,815 5.56

22.0 20,680 19,360 17,820 16,500 15,180 13,640 12,100 9,020 5.67

1 Ratings (continued)

4103829-03 - 12/22

BASE-RAY Installation Instructions

BASE-RAY TAPPINGS- Tapped 3/4 in. top and bottom

of end sections. A 3/4 in. x 1/8 in. vent bushing is

furnished with each Base-Ray Assembly. Only one air

vent location need be used.

Copper tubing is not recommended for steam

applications due to high heat loss through the tubing

and thermal expansion noise.

Base-Ray® Assembly Chart

BASE-RAY Assemblies up to and including 6 lineal ft.

are shipped in one piece.

Longer Assemblies are shipped in two or more pieces

or sub-assemblies, none of which exceeds 6 lineal ft.

Maximum recommended length for steam

applications is 10 lineal feet.

Use of PTFE (Teflon®) tape or paste containing

PTFE is not recommended as overtightening

is possible, causing cracking of the Base Ray

tappings.

ASSEMBLIES AND SUB-ASSEMBLIES ARE MADE

UP OF FOLLOWING SECTIONS

Assemblies

in.

Left

End

in.

Left

End

in.

Int.

in.

Right

End

in.

Right

End

18 in.

Panel

24 in.

Panel

1½ ft. --- --- --- --- --- 1 ---

2 ft. --- --- --- --- --- --- 1

2½ ft. 1 --- --- --- 1 --- ---

3 ft. --- 1 --- --- 1 --- ---

3½ ft. 1 --- --- 1 --- --- ---

4 ft. --- 1 --- 1 --- --- ---

4½ ft. 1 --- 1 --- 1 --- ---

5 ft. --- 1 1 --- 1 --- ---

5½ ft. 1 --- 1 1 --- --- ---

6 ft. --- 1 1 1 --- --- ---

Sub-Assemblies

5½ ft. L.H. 1 --- 2 --- --- --- ---

6 ft. L.H. --- 1 2 --- --- --- ---

6 ft. Center --- --- 3 --- --- --- ---

All R.H. --- --- Req'd

No. 1 or 1 --- ---

Sub-Assembly Chart

Assembly Length

(ft.)

L.H.

(ft.)

Center

(ft.)

R.H.

(ft.)

6½ 5½ --- 1

7 6 --- 1

7½ 5½ --- 2

8 6 --- 2

8½ 5½ --- 3

9 6 --- 3

9½ 5½ --- 4

10 6 --- 4

10½ 5½ --- 5

11 6 --- 5

11½ 5½ --- 6

12 6 --- 6

12½ 5½ 6 1

13 6 6 1

13½ 5½ 6 2

14 6 6 2

14½ 5½ 6 3

15 6 6 3

15½ 5½ 6 4

16 6 6 4

16½ 5½ 6 5

17 6 6 5

17½ 5½ 6 6

18 6 6 6

18½ 5½ 2-6 1

19 6 2-6 1

19½ 5½ 2-6 2

20 6 2-6 2

20½ 5½ 2-6 3

21 6 2-6 3

21½ 5½ 2-6 4

22 6 2-6 4

22½ 5½ 2-6 5

23 6 2-6 5

23½ 5½ 2-6 6

24 6 2-6 6

Dimensions and Specifications

2 Assembly Chart

5103829-03 - 12/22

BASE-RAY Installation Instructions BASE-RAY Installation Instructions

BASE-RAY® HYDRONICS

Types of Systems

Hydronic Heating Systems are classified according to

the piping arrangement and heating medium employed.

BASE-RAY is very versatile in that it may be used in

almost all types of systems as noted below:

1. Series Loop Forced Circulation Hot Water

2. One-Pipe Forced Circulation Hot Water

3. Two-Pipe Reverse Return Gravity or Forced

Circulation Hot Water

4. Two-Pipe Steam or Vapor.

It is not recommended that BASE-RAY be used in a

One-Pipe Steam System.

System Description

1. Series Loop is a forced circulation hot water heating

system with the BASE-RAY Assemblies connected

so that all the water flowing through a circuit passes

through each series-connected Assembly in the

circuit. Thus, the Assemblies serve as portions of

the main.

2. One-Pipe is a forced circulation hot water heating

system utilizing one continuous main from boiler

supply to boiler return. BASE-RAY Assemblies

are connected to this pipe or main by two smaller

pipes known as branches. When connecting these

branches to the main, one of the standard tees is

replaced by a special tee frequently called a one-

pipe fitting. These one-pipe fittings cause a portion

of the water flowing through the main to pass through

the BASE-RAY Assemblies and back to the main

again.

3. Two-Pipe Reverse Return is a gravity or forced

circulation hot water heating system utilizing one

main to carry heated water from the boiler to the

BASE-RAY Assemblies and a second main to carry

the cooled water from the Assemblies back to the

boiler. The Assemblies are connected to the return

main in the reverse order from that in which they are

connected to the supply main. Very few designers

use this type of system for residential applications,

since there is no difference between the heating

qualities of this system and the other two hot water

systems.

4. Two-Pipe Steam or Vapor Systems are steam

systems in which each BASE-RAY Assembly is

provided with two piping connections, and where

steam and condensate flow in separate mains and

branches. The Vapor system differs from the low

pressure system only in the type of air valve used.

3 System Types

6103829-03 - 12/22

BASE-RAY Installation Instructions

Installation Data

This type of installation, in which the BASE-RAY®

Assemblies serve as part of the main, is the most

economical way BASE-RAY can be installed. Substantial

savings in labor and material are realized in that one-pipe

fittings, shut-off valves, balancing cocks and additional

piping are eliminated. Quality is not sacrificed as tests

have proven the ability of a Series Loop System to

produce comfort conditions equal to those produced by

other hydronic heating systems. Series Loop Systems

are ideal for homes without basements, especially those

built on concrete slabs, as it eliminates the necessity for

running the mains in the attic or in the concrete slab. With

proper design, the Series Loop System can be used to

advantage in apartment construction.

As indicated in the adjacent piping diagrams, the sup-

ply runs from the boiler to the first BASE-RAY Assembly

in the circuit and then from Assembly to Assembly,

dropping below the floor only when necessary to avoid

obstructions such as doors, fireplaces, etc. BASE-RAY

Baseboard Extensions are used to conceal the piping

run above the floor.

It is sound practice to run a loop around an ordinary

5 or 6 room house. In the case of very small two-story

homes, the loop may take in both first floor and second

floor rooms. Larger ranch style, two-story and split level

homes may use two separate loops running from the

same supply line and coming back into the common

return line. An example of this is shown (lower right)

where the rooms on each floor are on a separate loop.

In some two-story homes it might be desirable to put

part of each floor on one loop and the other portions of

each floor on a second loop. Do not include three stories

on one loop. In multiple loop systems, a valve should

be placed at the return end of each loop for balancing.

EXPANSION – BASE-RAY Assemblies and connect-

ing piping will vary in length with water temperature

changes in the system. To prevent distortion or noise as

this expansion takes place, adequate measures must

be provided in the system design and by the installer.

Proper location of breaks in a run when the piping must

drop through the floor to clear obstructions such as

doors and fireplaces, expansion fittings, use of flexible

tubing at the end of a run, offsetting the vertical risers in

adequate size holes (1¼ in. holes for ¾ in. copper tubing,

1¼ in. x 1½ in. elongated holes for ¾ in. steel pipe) – all

provide for expansion and make for a quality installation.

In systems where high boiler water temperature must be

maintained for domestic hot water, length of BASE-RAY

Assemblies between two inside adjacent corners (when

BASE-RAY is on three walls) should not exceed 25 ft.,

unless there is an expansion break between or swing

joint provided at end. See SPECIAL APPLICATIONS,

page 14. It is also desirable on these types of systems

to provide a by-pass and mixing valve between boiler

supply and return so that in mild weather, temperature

changes in the system will be gradual instead of rapid.

BALANCING SYSTEM – System should be balanced on

days when average winter temperatures prevail outdoors.

4 Series Loop Systems

7103829-03 - 12/22

BASE-RAY Installation Instructions BASE-RAY Installation Instructions

To Design Series-Loop Base-Ray® Installation –

1. Calculate the Heat Loss of each room using the

procedure outlined in the I=B=R Heat Loss Calcula-

tion Guide No. H-21 or the ASHRAE Guide.

2. Using 210°F as design water temperature and 500

lbs/hr. as flow rate, select length of BASE-RAY As-

sembly for each room to produce desired output.

(Design water temperature other than 210°F may

be used but should not exceed 230°F.) If system

designed on 20°F drop, this 210°F average water

temperature means roughly, that under maximum

load conditions, the water leaves the boiler at 220°F

and returns at 200°F and returns at 200°F. Since

maximum load conditions occur only at rare intervals,

the system usually operates at considerably lower

water temperatures.

3. Locate BASE-RAY Assemblies on Floor Plan drawn

to scale.

4. Layout Piping on Floor Plan as illustrated. Since the

temperature of the water decreases progressively

from the first Heating Unit to the Last Heating Unit on

a circuit, the system should be laid out, if possible,

so that the Heating Units with the hotter water are

in areas such as the living room, bath and dining

room. Heating Units in bedrooms, kitchen and similar

areas should be located on the end of the loop.

5. Measure length of Circuit (horizontal and vertical)

from boiler supply to boiler return (include BASE-

RAY lengths). In Series Loop Systems, on rare

instances a BASE-RAY Assembly, Radiant Radiator

or Slenderized Radiator is connected to the main

with branches. Since a one-pipe fitting is used, add

12 additional feet to the measured length to obtain

total length of Circuit.

6. Knowing the load-length of the loop from Steps 2

and 5 above, Table A will indicate whether or not a

standard ¾ in. or 1 in. circulator is adequate.

If, for a given output, the total length of the loop exceeds

the values shown in Table A, the loop may be split into

two circuits – see Illustration. Check load-length of each

circuit.

Determine from Table B if 1” trunk is adequate.

For Piping Arrangements and Design conditions other

than those given above, follow procedure outlined in

Residential Hydronic Heating Installation and Design

I=B=R Guide.

TABLE A TABLE B

Btu/Hr. Output

of BASE-RAY

Assemblies

Each Loop

Total

Length of

Loop ft.

Btu/Hr. Output

of BASE-RAY

Assemblies All

Loops

Length of

Longest

Loop -ft.

40,000 100 50,000 240

35,000 135 55,000 210

30,000 175 60,000 165

25,000 260 65,000 140

70,000 120

NOTE: Table based on 20°F

Drop through Circuit - ¾ in.

piping

NOTE: Table based on head

developed by Standard ¾ in.

or 1 in. circulator - 20°F Drop

through system.

5 Series Loop Design

8103829-03 - 12/22

BASE-RAY Installation Instructions

A BASE-RAY® heating system is extremely easy to install

– no other heating system requires less labor. The same

installation practices that are used in an ordinary radiator

system are followed. Use conventional methods in select-

ing boiler and pipe sizes, including mains, risers and

branches. Supply and return connections to BASE-RAY

are made in the same way as with conventional radiators.

Residential Hydronic Heating Installation and Design

I=B=R Guide shows installation details for both the

conventional piping system and the Series Loop System.

LOCATION OF BASE-RAY

BASE-RAY should be placed along exposed walls in

place of the regular wood baseboard. If the outside

walls do not provide sufficient space, place additional

assemblies on inside wall.

RECESSED

BASE-RAY may be recessed the depth of the lath and

plaster, and will extend into the room approximately one

and a quarter inches.

EXPANSION

BASE-RAY will expand about 1/8 in. in 10 lineal feet with

a temperature rise of 180°F. To provide for this, holes

cut through the floors should be larger than the pipe,

and swing connections should be located in branches

between the Main and Risers.

VENTING

When two or more BASE-RAY assemblies are connected

in series on a hot water job it is necessary to vent each

assembly, unless the assemblies are connected at the

top tapping. When connected in series on a two-pipe

steam job, the assemblies should be connected at the

bottom, and only one steam air vent need be used.

MAXIMUM DIMENSIONS OF FITTINGS

Inasmuch as the BASEBOARD EXTENSION PANELS and

PROJECTING CORNER PLATES are installed flush with

the face of BASE-RAY, there are a few types of fittings that

cannot be used in back of these parts because of the

space limitations. As shown in the adjacent diagram, the

diameter of the fittings cannot exceed 1½ in. – radiator

union elbows and regular pipe unions usually measure

more, ¾ in. copper sweat or screw fittings usually mea-

sure less. When iron pipe and fittings are used, straight

connections may be made with ¾ in. right and left cou-

pling and corner connections with ¾” in. street elbow.

Because of these space limitations, U.S. Boiler Company

has available a No. 90-S Compression Connector for

use with the Projecting Corner Plate (see illustration).

Because of the radius on the face of INVERTED CORNER

PLATE, fittings having a diameter greater than 1½ in. may

be used (see illustration). For easy and quick connections

at inside corners, however, we recommend the U.S. Boiler

6 Installation Details

Company No. 90-S Compression Connector for use with

the 4-5/8 in. Inverted Corner Plate. Both are illustrated.

VALVE ENCLOSURES have been designed to

accommodate almost all makes of shut-off valves and

steam traps. See Illustration for Enclosure dimensions.

9103829-03 - 12/22

BASE-RAY Installation Instructions BASE-RAY Installation Instructions

1. Wall Preparation:

To prevent excessive heat loss through the walls

in back of BASE-RAY®, it is recommended that the

stud space behind the Assemblies be insulated to

a height of at least 12 in. above the floor with 4 in.

mineral wool batts (blanket or loose insulation may

also be used) or other approved insulating materials.

This is particularly essential if the BASE-RAY is

recessed. Mark Stud locations.

2. Allowance for Finished Flooring to Wall-to-Wall

Carpeting:

If BASE-RAY is to be installed prior to the finished

floor, a wooden strip 2½ in. in width and equal in

height to the finished floor should be installed along

the base of all walls where baseboard assemblies

and trim are to be placed.

If allowance is not made for wall-to-wall carpeting,

or for carpeting that is to be laid with edges flush

to the room side surface of BASE-RAY, the air inlet

of the BASE-RAY will be restricted, resulting in a

reduction in output. To compensate for the wall-

to-wall carpeting, baseboard assemblies and trim

should be raised by laying under them a strip of

wood 2½ in. wide and the same thickness as the

carpet and pad.

3. Recessing of BASE-RAY Assemblies and Trim.

(If BASE-RAY to be installed free-standing,

proceed to Step 4.)

BASE-RAY and Trim may be partially recessed or

installed free standing against the finished wall

surface. Although procedure for preparing recess

may vary slightly with type of finished wall, in general,

steps outlined below for lath and plaster construction

may be followed:

a. Nail ½ in. plaster ground to studs with the

bottom of the plaster ground located 10 in.

above finished floor.

* Additional height must be allowed if recess

prepared before finished floor is laid or if wall-

to-wall carpeting is to be installed – see Step

2 of Installation Instructions.

b. Line back of recess with paper-backed

aluminum foil. This can be accomplished quickly

and neatly by stapling foil to studs with staple

gun. Foil surface should be on room side.

4. Locate Holes for Piping (see Illustrations):

7 Installation Instructions

10 103829-03 - 12/22

BASE-RAY Installation Instructions

Press down on both cam handles simultaneously

until castings are drawn together. Be sure clamp is

not tilted, since this may break casting. If nipples

do not draw up evenly during final tightening, strike

end of assembly with wood block and hammer or

mallet to bring the sections back in line. Do not

strike BASE-RAY sections with metal hammer.

Remove the clamp, place the tie bolts in the bolt

slots and tighten securely.

6. Installation of BASE-RAY® Assemblies

Install all fittings in end of sections and all necessary

vents while assemblies are still laying flat on floor.

Install bottom center supports prior to raising

assemblies to upright position. Refer to table for

number of supports required. They should be spaced

evenly.

Length Assembly Number of Top and Bottom

Center Supports Required

1½ to 14½ Lineal Feet 1

15 to 21½ Lineal Feet 2

22 to 28½ Lineal Feet 3

Sections being drawn together - ready for tie-bolt

8 Assembly Instructions

5. Assembling BASE-RAY®

BASE-RAY is shipped assembled in lengths up to

six (6) lineal feet – longer assemblies are shipped

in two or more sub-assemblies for assembly on

the job (see BASE-RAY Assembly chart, page 4).

One man can join tow sub-assemblies together in

a matter of minutes providing he has a BASE-RAY

Assembly Clamp (available at a nominal charge)

and follows the recommended procedure.

In assembling BASE-RAY sub-assemblies on

the job, the sections should be lined up, face

down, on the floor or other flat surface near the

wall on which they are to be installed. Ends of

section, nipple ports and nipples should be

thoroughly cleaned with kerosene or gasoline and

wiped dry with a clean cloth.

Place a thin coating of nipple lubricant on nipples

and insert into the nipple ports of one assembly

without cocking. Engage nipples in nipple ports of

second assembly and push sections together by

hand as far as possible keeping ends of sections

parallel.

In order to secure necessary leverage with BASE-

RAY Clamp, cut two pieces of 1¼ in. steel pipe 15

in. long and place them on the two cam handles.

Insert BASE-RAY Clamp nose in the recesses in

the BASE-RAY castings, being certain that the

nose of the clamp is resting on the bottom of

the recess – THIS IS IMPORTANT. If the clamp

nose will not reach the bottom of the recess, exert

light pressure downward on the cam handles

until the two castings are PARTIALLY drawn

together. Release the pressure on the handles

and the clamp nose will then drop to the bottom

of the recess.

11103829-03 - 12/22

BASE-RAY Installation Instructions BASE-RAY Installation Instructions

Install the spring clip Bottom Center support by pushing

it all the way up against the bottom of two fins and next

to the waterway of the section as illustrated below. Run

the ¼ in. cap screw into the clip until head is not more

than ¾ in. from the clip.

Stand Assemblies upright, place in position and fasten

to the walls with Top Center Supports using the number

shown in the table above. Insert Top Center Supports

in Air Outlet opening of Sections opposite studs (stud

locations determined in step 1). Use wood screw

furnished with Top Center Support and screw into stud

until tight, the longer dimension of the top center support

is in a vertical position when installed. Back off fraction

of a turn to permit movement caused by expansion and

contractions of sections. Adjust Bottom Center Supports

by turning Cap Screws down until they begin to contact

floor. Do not extend the Cap Screws any further.

Connect assemblies to piping. Complete remainder of

piping to boiler, fill system with water and check for leaks.

CARE MUST BE EXERCISED TO SEE THAT 30 PSI

GAUGE PRESSURE IS NOT EXCEEDED.

DO NOT PRESSURE TEST WITH AIR.

7. Installation of Valve enclosures (furnished in right-

hand and left-hand patterns).

Remove knockout in end of Valve Enclosure if piping

to run through Valve Enclosure.

Bend tab on Valve Enclosure so that hole is on inside

of Valve Enclosure facing wall.

Place Valve Enclosure next to BASE-RAY® and fasten

to BASE-RAY with ¼ in. thumb screw furnished.

Insert screw furnished through tab on Valve

Enclosure and fasten to wall. Set Valve Enclosure

Cover in place.

Spring Clip Bottom Center Support Top Center Support

8 Assembly Instructions (continued)

12 103829-03 - 12/22

BASE-RAY Installation Instructions

8. Installation of Corner Plates

INVERTED CORNER PLATES – for inside corners –

furnished in two types, 4-5/8 in. standard plate is used

when Assemblies on adjoining walls extend to within

4-3/8 in. of the corner. If this distance is greater than

4-3/8 in. but less than 10-3/8 in., the 10-5/8 in. plate is

used. Extended Plate may be cut to desired length with

hacksaw.

Set Inverted Corner Plate in place overlapping the end

of the adjoining BASE-RAY® Assemblies. Secure to floor

with wood screws furnished.

If installation is on tile with wood sub-flooring, drill 1/2

in. holes in tile in line with holes in Corner Plate. Holes

should not penetrate sub-flooring. Substitute screws of

same size as furnished but longer and secure Corner

Plate to sub-flooring.

If installation is on masonry floor, drill 1/2 in. holes

approximately 1 in. deep in floor in line with holes in

Corner Plate. Drive slightly oversized wood plugs into

holes and secure Corner Plate to plugs with wood screws

furnished.

PROJECTING CORNER PLATE – for concealing pipe

and fittings at outside corners. See section on MAXIMUM

DIMENSION OF FITTINGS, page 8. Assemblies on

adjoining walls must extend to within 3 in. of corner.

Set Projecting Corner Plate in place overlapping the

ends of the adjoining BASE-RAY Assemblies. Secure

with moulding (not furnished) at top and bottom.

9. Installation of Baseboard Extension, Splice Plates,

End Caps and Filler Pieces.

BASEBOARD EXTENSION – Extension panels are

furnished in six foot lengths but may be cut to desired

lengths with hacksaw. Extensions are supported by

hangers which are attached to studs (stud locations

determined in Step 1) with two No. 10 x 1-1/2 in.

wood screws.

Screw hangers to studs so that there is a hanger

located at the extreme ends of the Baseboard

Extension and at two foot intervals along its length.

If construction members are not suitably located,

8 Assembly Instructions (continued)

use Moly Screw anchors to secure Hangers to wall.

Bottom of Hangers should rest on finished floor

unless BASE-RAY has been raised for wall-to-wall

carpeting (see page 9). If such is the case, Hangers

must be raised an equal amount.

Install END CAPS on Extension (see succeeding

paragraph), insert lip on top rear of Extension into

slot at top of Hangers and snap channel on bottom

of Extension under spacer arm on lower part of

Hanger.

SPLICE PLATES – used to make neat covering for

joint where two Extension Panels butt together or

where Extension Panel terminates at BASE-RAY.

Plate hooks on bottom of Splice Plate over lip on

bottom of Extension Panel and push top of Splice

Plate toward wall until hooks on top of the Splice

Plate snap into position behind the Extension or the

BASE-RAY. When the Splice Plate is used to join an

Extension Panel to BASE-RAY, bottom hook which

overlaps BASE-RAY must be cut off.

END CAPS – available in both left-hand and right-

hand patterns for finishing off ends of Baseboard

Extensions that terminate at doorways or at Valve

Enclosures. They can be used where Extensions

butt against BASE-RAY in preference to Splice Plate.

Remove Knockout in end of End Cap if piping is

to run in this direction. Slide over end of Extension

Panel.

ADJUSTABLE END CAPS & FILLER PIECES –

Adjustable End Caps are available in both left-hand

and right-hand patterns and are used in the same

locations as the standard end caps except the 9 in.

length of the adjustable end caps makes it possible

to fill in spaces of up to 7-1/2 in. A knockout is also

available in the ends for piping.

Filler pieces are used where a 9 in. space or less

exists between two sections of baseboard or

between a section of baseboard and baseboard

extension.

13103829-03 - 12/22

BASE-RAY Installation Instructions BASE-RAY Installation Instructions

To install adjustable end cap or filler piece accessory,

insert bolt thru hole in accessory and engage toggle

as shown below. Place accessory against BASE-

RAY® at same time pushing toggle thru air outlet of

BASE-RAY. With accessory in final location, tighten

bolt until accessory is secure. Use finger to keep

toggle in vertical position, as shown below.

10. Completing Installation – Important

AIR-SEAL – It is necessary to prevent leakage of air

between the walls and BASE-RAY®, since this will

cause dirt streaks on the wall above the heating unit.

This can be avoided by installing an “Air-Seal”.

We recommended using 1 in. wide tape for this

purpose, preferably with a thermal setting adhesive.

With the adhesive side down, press one-half of

tape against the top of BASE-RAY and the other

half against the wall as illustrated on page 9.

WOOD MOULDING – For finished installation, 3/4

in. quarter round or other wood moulding should be

nailed to wall on top of BASE-RAY (over “Air-Seal”)

and Trim and down side of Valve Enclosures. When

Projecting Corner Plates are used, install wood

moulding at base of Corner Plate to hold in place. An

illustration showing the application of the moulding

can be found on page 9.

PAINTING – BASE-RAY and Trim are primed with a

latex (water based) paint and must be top coated

with a high grade oil or solvent based enamel to

prevent rusting of the metals immediately after

installation. Primer coated products should not

be allowed to sweat as a result of high room

humidity or cold water in system. The use of flat

wall paint is not recommended since it may chip

or crack when applied to surfaces that are heated.

Consult reputable paint dealer.

8 Assembly Instructions (continued)

14 103829-03 - 12/22

BASE-RAY Installation Instructions

BASE-RAY® INSTALLED ON THREE WALLS OF ROOM

– When BASE-RAY is installed on three walls, expansion

noises are sometimes created by the middle assembly

when rigid piping is used to connect all three assemblies

together. Flexibility can be gained by connecting two

of the adjoining assemblies with a flexible connector or

swing joint such as illustrated.

INSTALLATION WITH U.S. BOILER COMPANY

RADIANT OR SLENDERIZED RADIATORS – Since a

BASE-RAY installation is made in much the same manner

as any other radiator system, U.S. BOILER COMPANY

RADIANT OR SLENDERIZED RADIATORS may be used

in a BASE-RAY Radiant Baseboard System.

TWO-TIER INSTALLATION – Where wall space is limited,

BASE-RAY may be installed in tiers. Both sections may

be upright or lower section inverted as illustrated. Legs

on end sections are cut off to enhance appearance.

RATING CORRECTION FACTOR – If BASE-RAY is

installed in tiers in accordance with the illustrations, each

tier will have a rating of .91 times the rating shown in the

Tables on pages 2 and 3.

POSSIBLE PIPING ARRANGEMENTS

TWO-TIER BASE-RAY FORCED CIRCULATION HOT WATER SYSTEMS

9 Special Applications

15103829-03 - 12/22

BASE-RAY Installation Instructions BASE-RAY Installation Instructions

All Base-Ray® Repair Parts may be obtained through your local U.S. Boiler Company Wholesale distributor.

Should you require assistance in locating a U.S. Boiler Company Distributor in your area, or have questions

regarding the availability of U.S. Boiler Company products or repair parts, please contact U.S. Boiler

Company Customer Service at (717) 481-8400 or Fax (717) 481-8408.

10 Service Parts

U.S. Boiler Company, LLC

P.O. Box 3020

Lancaster, PA 17604

1-888-432-8887

www.usboiler.net

U.S. Boiler Company Baseray Installation, Operating And Service Instructions

U.S. Boiler Company Baseray Installation, Operating And Service Instructions

U.S. Boiler Company Baseray Installation, Operating And Service Instructions

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